Is the prolongation latency of visual evoked potentials a pathological sign in children with Down's syndrome without ocular abnormalities? Case-control study of children with Down's syndrome

ObjectiveTo evaluate retino-cortical function in children with Down's syndrome (DS) and no evident ocular abnormalities beyond mild refractive error, by recording visual evoked potentials (VEP) in response to pattern-reversal stimuli and comparing to those of age-matched healthy controls.Methods and analysisAll the children with DS registered at Split-Dalmatia County who met inclusion criteria of no ocular abnormalities and with refraction error between -0.5 and +2.0 D, and their age-matched healthy controls were included in the study (n=36 children, N=72 eyes, for both groups, respectively, with the same age of 9 +/- 2 years). Transient VEP was recorded and the waves with a positive peak as a response to a pattern-reversal stimulus, were analysed. The peak P100 latency, defined as the time from the stimulus onset to the main positive peak, and peak to peak amplitudes were measured.ResultsWhile P100 wave amplitudes were comparable between two groups (p=0.804), P100 latencies were from 4.3 to 28.5 ms longer in children with DS (p<0.001). Interocular latency difference between a VEP dominant and an inferior eye was pronounced in healthy (1.2 ms (0.2-4.0), but was almost diminished in children with DS (0.3 ms (0.1-0.5), p<0.001).ConclusionOur study has demonstrated that VEP response is divergent in children with DS compared with their age-matched healthy controls, indicating possible structural or functional abnormalities of the visual cortex. As VEP results are helpful in the diagnosis and treatment planning of vision-related disorders, we should reconsider the use of common VEP diagnostic criteria in subpopulation of children with DS.